Friday, December 27, 2019
Giving a Robot a Hand
Giving a Robot a Hand Giving a Robot a Hand Giving a Robot a HandDecades ago, kids were thrilled to get a robot of any kind. Watching it move and maybe talk made it feel like a new friend. Now, a new robot promises to let the user have more input into design and even choose its parts parts that dont necessarily come from the kit. A child is empowered to take ownership of their toy in more ways than one.One of the things that can be great about a toy is when it lets children have greater control in what it will be, says Karthik Ramani, a prof of mechanical engineering at Purdue University. That was part of what was behind the Ziro kit, which, in addition to allowing users to choose parts, also allows a persons greifhand movements to decide the movement of the robot.Around 1995 I was starting to teach a toy design class, says Ramani. My research hit areas like manufacturing, fabrication, then design, and then I even worked on human computer interaction. Here, when it came to research w ith the students, there was the thought of developing a new kind of toy platform that can be good for STEM learning. We were testing with children and they were enjoying robots. Some just had such a need to make that toy work in a way that mixed with their creativity.A new modular design enables free-form robotics construction. Image ZeroUIRamanis gruppe saw this kit as a strong opportunity partly because its free form. Kids can even repurpose material from their homes for the robot. We just give them the muscles and the brains, he adds. They bring so much of themselves to it.Using sensors, a person using the kit can actually, with a wave of their hand, move the robot as they would like. Phones have brought the hand and fingers into play so much, he says. Were using natural user interface here, where its very intuitive. We do it for the kit with wearables a gesture-controlled platform that uses a glove. On the glove there are chips and we have sensors on the fingers. The glove is th e brain of the robot. It understands what the hand is doing as its doing it and then sends messages to modules, which have microcontrollers and wireless communications, and it coordinates the modules based on what youre choosing to do with your hands.There are multiple materials that can be used to connect objects to the robots, including velcro. And what Ramani has enjoyed is how some of the youth involved in testing stuck to their tasks with such focus. I remember one who wanted to make his like a drummer, he says. He was adding some materials for hitting and he just wasnt going to stop until he got closer to his vision. You love to see that passion. They the testers wouldnt quit.A Robot Grows UpThe idea is also that the robot they have can grow with the child. They dont have to buy a new robot for every new task or theme, but it can start as, for instance, a robot with wheels when theyre young and then get more sophisticated as they choose different parts to add over time, such a s in the drumming example, he says.This works well somewhat because you dont have to look at your hand as its moving. Your mind knows, Ramani offers. You dont need to learn sophisticated mapping. When youre talking about building with mechatronics, it can take so long to program the electronics and build the robot. Its better when they can build parts but not necessarily need that knowledge. Its important to have fun and grow.Eric Butterman is an independent writer. For Further DiscussionThe glove is the brain of the robot. It understands what the hand is doing as its doing it and then sends messages to modules.Prof. Karthik Ramani, Purdue University
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